Endourology
Comparative Evaluation of Periprostatic Nerve Block with and without Intraprostatic Nerve Block in Transrectal
Ultrasound-Guided Prostatic Needle Biopsy
Santosh Kumar Singh, Ashok Kumar1, Mahavir Singh Griwan1, Jyotsna Sen2
Departments of Urology, 1Surgery, and 2Radiodiagnosis, Pandit Bhagwat Dayal Sharma University of Health Sciences, Rohtak, India
Purpose: Controversy exists over the pain during prostate biopsy. Periprostatic nerve block is a commonly used anaesthetic technique during transrectal ultrasound (TRUS)-guided prostate biopsy. The recent trend toward increasing the number of cores has become popular. This practice further increases the need for a proper anaesthetic application. We compared the efficacy of periprostatic nerve block with or without intra- prostatic nerve block.
Materials and Methods: We conducted a prospective double-blinded placebo-controlled study at our institute with 142 consecutive patients. Patients were randomly assigned into 3 groups. Group 1 received periprostatic nerve block with intraprostatic nerve block with 1% lignocaine. Group 2 patients were administered periprostatic nerve block only with 1% lignocaine. Group 3 received no anaesthesia. Patients were asked to grade their level of pain by using an 11-point linear analogue scale at the time of ultrasound probe insertion, at the time of anaesthesia, during biopsy, and 30 minutes after biopsy.
Results: The study groups were comparable in demographic profile, prostate-specific antigen (PSA) level, and prostate size. The mean pain scores at the time of biopsy in groups 1, 2, and 3 were 2.70, 3.39, and 4.16, respectively. Group 1 recorded the minimum mean pain score of 2.70 during prostate biopsy, which was significantly lower than the scores of groups 2 and 3 (p<0.001). There were no significant differences in pain scores among the 3 groups during probe insertion, during anaesthesia, or at 30 minutes after biopsy (p>0.05).
Conclusions: Periprostatic nerve block with intraprostatic nerve block provides better pain control than does periprostatic nerve block alone in TRUS-guided prostate biopsy.
Key Words: Analgesia; Lignocaine
This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/3.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
Article History:
received 3 January, 2012 accepted 12 June, 2012
Corresponding Author:
Ashok Kumar
Department of Surgery, Pandit Bhagwat Dayal Sharma University of Health Sciences, Pgims, Rohtak- 124001, 718-1/35, NR Devi Vihar, Janta Colony, Rohtak-124001, Haryana, India
TEL: +919466676681 FAX: +911262211308 E-mail: drashok@fastmail.fm
INTRODUCTION
Transrectal ultrasound (TRUS)-guided biopsy has become the standard procedure for diagnosing prostatic carci- noma. Histological diagnosis is mandatory before initiat- ing any kind of treatment of prostatic carcinoma, and TRUS-guided biopsy is the only way to achieve this. In re- cent years, a consensus has been reached that sextant sam- pling is inadequate, and sampling with 8 cores or greater has been suggested [1]. These extended techniques allow
us to obtain more biopsy samples and increase the prostate cancer detection rate. This increased number of cores translates to increased pain scores, however, if no an- algesia is given; this concept is called cumulative pain by Kaver et al. [2].
Studies show that almost 20% of patients report that pain is significant and that they would refuse rebiopsy without analgesia [1]. Men scheduled for TRUS-guided bi- opsy experience considerable psychological stress. The reasons for this stress are manifold and include fear of diag-
the procedure. Those people who are anxious experience higher pain scores, as in young people. Similarly, patients having a past unpleasant experience have higher pain scores.
Various modalities have been described in the literature for giving analgesia during TRUS-guided prostate biopsy, but no standard technique has proved to be most effective.
In recent times, periprostatic nerve block has emerged as a standard technique for prostate biopsy, but it has been shown by various authors that it is a significant yet in- sufficient method. This led to combining other analgesics with periprostatic nerve block, such as tramadol or intra- prostatic nerve block. However, only a few studies are available and more studies are needed to reach any consensus. In this study, we compared analgesia with peri- prostatic nerve block alone versus periprostatic nerve block with intraprostatic nerve block in TRUS-guided pros- tate biopsy.
MATERIALS AND METHODS
This prospective randomized controlled trial comparing periprostatic nerve block with or without intraprostatic block was done in total of 142 patients at the Department of Urology, Pandit Bhagwat Dayal Sharma University of Health Sciences in collaboration with the Department of Radiodiagnosis between June 2010 and September 2011.
The patients were randomly assigned by use of the card method. Patients were asked to pick an envelope from three packs of opaque, sealed envelopes. Drugs were grouped ac- cording to the number on the envelope. The urologist doing the biopsy was unaware of the grouping. He then used drugs from the numbered drugs (without information about the content) according to the number on the envelope. The drug was prepared by a fellow who was un- aware of the study protocol per the envelope selected. After the biopsy was completed, the patients were shown a visual analogue scale and were asked to mark their pain score on the scale.
Patients having an elevated prostate-specific antigen (PSA) level (>4 ng/ml) and abnormal digital rectal exami- nation results (discrete nodule, focal induration, a dif- fusely hard prostate) were included in this study.
Patients having a history of previous biopsy, chronic prostatitis, chronic pelvic pain, inflammatory bowel dis- ease, anorectal problems, active urinary tract infections, or local anesthetic allergy were excluded from this study.
1. Patient preparation
Informed consent was obtained prior to the procedure. All
tal pathology that would contraindicate insertion of the probe and to allow the identification of any palpable pro- static abnormalities to which special attention could be paid during ultrasound examination with an MDI 5000 Sono CT (Philips, Beckley, WV, USA).
All patients were assigned to one of three groups randomly. The three groups, A, B, and C, included 47, 46, and 49 patients, respectively.
Group A (nerve block with intraprostatic nerve block):
nerve block using 5 ml 1% lignocaine (Lox 2% Neon Laboratories, Mumbai, India) was injected just lateral to the junction between the prostate base and seminal vesicle just before biopsy. The probe was adjusted to the sagittal plane with the on-screen biopsy guide operational before placement. A 22-gauge, 7-inch spinal needle was placed through the biopsy guide channel under ultrasound guid- ance into the area where the prostatic innervation enters the gland through the guide fitted on probe. The probe was angled laterally until the notch between the prostate and the seminal vesicle was visualized and 1% lignocaine (5 ml) was injected on each side. Successful placement of the nee- dle was confirmed when the injectate caused a separation of the seminal vesicles and prostate from the rectal wall, called the ultrasonic wheal. After this, 5 ml of 1% lignocaine was administered by use of an intraprostatic injection technique. This involved direct prostatic injection under ultrasound guidance on both sides near the base.
Group B (nerve block without intraprostatic nerve block): same as group A expect 0.9% NaCl was used for in- traprostatic injection.
Group C (control): patients were not given any kind of analgesia. Instead, 0.9% NaCl was used for both injections.
2. Biopsy method
The patients were positioned in the left lateral decubitus position (lying on the left side). This allowed for easier in- sertion of the rectal probe. The probe was gently advanced into the rectum to the base of the bladder until the seminal vesicles were visualized. Transverse images were then ob- tained as the probe was moved back from the prostate base to the prostate apex. Prostate volume was calculated with the transducer at the largest cross-sectional image in the transverse plane and in the mid-sagittal plane.
An 18-gauge and 20-cm biopsy needle (Bard Max-core bi- opsy needle, Bard Biopsy Systems, Tempe, AZ, USA) load- ed in a spring-action automatic biopsy device was used to procure 12 prostate core biopsy specimens. The needle was introduced through the needle guide fitted over the probe under ultrasound guidance. The area of interest was viewed and biopsies were taken under ultrasound
TABLE 1. Patient characteristics Characteristic Group A
(n=47)
Group B (n=46)
Group C (n=49)
p-value
ANOVA (A vs. B) (A vs. C) (B vs. C)
Mean age (yr) Mean prostate size (ml) Mean PSA (ng/ml)
71.30±9.17 47.53±19.64 58.40±43.86
71.26±9.94 56.39±24.40 51.61±33.50
71.96±10.76 48.41±18.51 57.49±34.71
0.985 0.570 0.404
0.747 0.822 0.910
0.744 0.075 0.403
0.928 0.083 0.641 ANOVA, analysis of variance; PSA, prostate-specific antigen.
FIG. 1. Patient characteristics. PSA, prostate-specific antigen. FIG. 2. Results for mean pain scores. VAS, visual analogue scale.
guidance.
After the biopsies were completed, the patients were shown a 10-cm visual analogue scale and were asked to re- port their pain score twice at the following times: 1) at the time of probe insertion, 2) at the time of anaesthesia, and 3) at the time of taking the biopsy. The patients were then asked to rest for 30 minutes and were asked about their pain after 30 minutes on the same scale.
3. Statistics
The data were analyzed by using SPSS ver. 17.0 (SPSS Inc., Chicago, IL, USA). The differences in pain scales, age, PSA, and gland size between the three groups were analyzed by using unpaired Student's t-tests with Bonferroni correc- tion and analysis of variance (ANOVA).
RESULTS
The study groups were comparable in demographic profile, PSA, and prostate size (Fig. 1). The mean pain scores in group 1 during probe insertion, during anaesthesia, during biopsy, and 30 minutes after biopsy were 2.8±0.85, 4.11±1.07, 2.70±0.86, and 0.62±0.79, respectively (Table 1, Fig. 2). The mean pain scores in group 2 during probe in- sertion, during anaesthesia, during biopsy, and 30 minutes after biopsy were 2.89±1.02, 4.13±1.41, 3.39±0.91, and 0.78±0.76, respectively. The mean pain scores in group 3 during probe insertion, during anaesthesia, during biopsy, and 30 minutes after biopsy were 2.69±0.77, 3.84±0.85,
4.16±0.96, and 0.82±0.78, respectively. Group 1 recorded the minimum mean pain score of 2.70 during prostate biop- sy, which was significantly lower than the scores of groups 2 and 3 (p<0.001). There were no significant differences in pain scores among the 3 groups during probe insertion, during anaesthesia, and 30 minutes after biopsy (p>0.05).
The same results were recorded by ANOVA (Table 2). The complications experienced were bacteremia, rectal bleed- ing, hematuria, fever, pain during voiding, hema- tospermia, and urine retention. There were 34 complica- tions in group A, 36 in group B, and 41 in group C; the num- ber of complications may have been more than 1 in any giv- en patient. All complications were minor and were man- aged on an outpatient basis without admission. All three groups were comparable in terms of complications. There was no significant difference in the cancer detection rate in the 3 groups. The cancer detection rate was the same in all groups.
DISCUSSION
Although TRUS-guided prostate biopsy is safe, patients experience significant discomfort during the procedure [4].
Pain associated with TRUS-guided prostate biopsy is im- portant, because many patients must undergo rebiopsy and pain may prevent them from doing so.
Pain is a complex perceptual experience that is difficult to quantify. This pain is a translation of actual somatic and visceral pain, anxiety, and psychological stress and thus
anaesthesia
Mean pain score at biopsy Mean 30 minutes
post-procedural pain score
2.70±0.86 0.62±0.79
3.39±0.91 0.78±0.76
4.16±0.96 0.82±0.78
0.000 0.326
0.000 0.219
0.000 0.810
0.000 0.413 ANOVA, analysis of variance.
the interpretation of scores remains subjective. In the re- port of Desgrandchamps et al. [5], patients were asked to score their severity of discomfort at the end of the procedure by use of a self-administered verbal rating scale that con- sisted of a list of adjectives describing different levels of pain, from none to intolerable pain. A linear 11-point visual analogue scale is easily comprehensible and easy to demon- strate and remains the most established method of scoring pain. Others have modified it and used it in various ways.
Pain during prostate biopsy results from insertion of the ultrasound probe and needle puncture into the prostate.
The nerve supply of the prostate is autonomic and origi- nates from the inferior hypogastric plexus. The nerves pass along the plane between the rectum and prostatic capsule.
The pain associated with prostate biopsy is thought to be contributed to by direct contact of the biopsy needle with these nerves within the stroma and the prostatic capsule, which are richly innervated [6].
Conde et al. [7] in 2006 found that bilateral periprostatic nerve block is better for analgesia than oral morphine. Over the years, it has been established by various authors that periprostatic nerve block is very effective for TRUS-guided prostate biopsy. Since its introduction by Nash et al. [8], this technique has gone further to the extent of being the gold standard technique in prostate biopsy. Various au- thors have found it to be very effective in comparison with placebo, control, and other analgesic methods [8-11].
The issue is far from settled, however, as others have found the procedure to still be very painful. Wu et al. [12]
proposed that periprostatic nerve block is not effective for prostatic biopsy. Bozlu et al. [13] proposed in 2004 that peri- prostatic lidocaine infiltration and tramadol have no an- algesic effect during prostate biopsy.
Thus, a need for better analgesics was realized. In 2005 Mutaguchi et al. [14] proposed a new intraprostatic an- algesia technique for anesthetizing the prostate that re- quires blocking all sensory nerves from the posterior and anterior sides. They found that 71 patients out of 170 pa- tients had a mean pain score of 1.9 as compared to 2.6 with of periprostatic nerve block. This was found to be clinically significant. We also found a similar result but with the com- bination of periprostatic nerve block and intraprostatic nerve block.
Cam et al. [15] also reported that combining intra- prostatic local anesthetic and periprostatic nerve block is an effective form of analgesia. They used this technique in 100 patients and found it to be very effective with a mean pain score of 0.75 compared with 2.17 for periprostatic nerve block alone. In our study we found a similar result.
In 2007, Lee et al. [16] published the results of their study in which they divided 152 patients into three groups. One group received periprostatic nerve block alone, another re- ceived intraprostatic nerve block alone, and the third re- ceived both. They found that the group with both peripro- static nerve block and intraprostatic nerve block had the best pain control at the time of anaesthesia and biopsy, and the difference was statistically significant. In our study, a significant pain difference was found only at the time of biopsy.
Moinzadeh et al. [17] assessed the use of prebiopsy out- patient analgesia using the nonsteroidal anti-in- flammatory agent rofecoxib (Vioxx). Thirty-seven percent of patients receiving placebo and 42% of patients receiving rofecoxib had significant pain (5 or greater on the visual an- alogue pain scale). The median pain score of patients re- ceiving rofecoxib (4.0) versus placebo (4.0) was not sig- nificantly different (p=0.3139) by use of a Wilcoxon rank sum analysis. Our nerve blocking technique shows con- sistently lower pain scores than does placebo.
Adiyat et al. [18] reported no significant pain difference with a diclofenac patch or suppository at the time of biopsy, whereas the nerve block technique showed significant pain relief.
In our study, there was a significant reduction in the pain scores in group A and group B (p=0.000) at the time of biopsy as compared with group C. There was also a significant re- duction in pain at the time of biopsy in group A compared with group B (p=0.000). Therefore, we recommend the use of intraprostatic as well as periprostatic nerve block in prostate biopsy patients.
CONCLUSIONS
Periprostatic nerve block with intraprostatic nerve block provides better pain control than does periprostatic nerve block alone in TRUS-guided prostate biopsy.
CONFLICTS OF INTEREST
The authors have nothing to disclose.
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